/*
 * See the dyninst/COPYRIGHT file for copyright information.
 * 
 * We provide the Paradyn Tools (below described as "Paradyn")
 * on an AS IS basis, and do not warrant its validity or performance.
 * We reserve the right to update, modify, or discontinue this
 * software at any time.  We shall have no obligation to supply such
 * updates or modifications or any other form of support to you.
 * 
 * By your use of Paradyn, you understand and agree that we (or any
 * other person or entity with proprietary rights in Paradyn) are
 * under no obligation to provide either maintenance services,
 * update services, notices of latent defects, or correction of
 * defects for Paradyn.
 * 
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 * 
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 * 
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
 */

/*
 * inst-power.h - Common definitions to the POWER specific instrumentation code.
 * $Id: inst-power.h,v 1.35 2008/02/19 13:37:44 rchen Exp $
 */

#ifndef INST_POWER_H
#define INST_POWER_H


/* "pseudo" instructions that are placed in the tramp code for the inst funcs
 *   to patch up.   This must be invalid instructions (any instruction with
 *   its top 10 bits as 0 is invalid (technically UNIMP).
 *
 */

#define DEAD_REG              0
#define LIVE_REG              1
#define LIVE_UNCLOBBERED_REG  2
#define LIVE_CLOBBERED_REG    3

#define GPRSIZE_32            4
#define GPRSIZE_64            8
#define FPRSIZE               16

#define REG_SP		      1		
#define REG_TOC               2   /* TOC anchor                            */
// REG_GUARD_OFFSET and REG_GUARD_VALUE could overlap.
#define REG_GUARD_ADDR        5   /* Arbitrary                             */
#define REG_GUARD_VALUE       6
#define REG_GUARD_OFFSET      6

#define REG_COST_ADDR         5
#define REG_COST_VALUE        6

#define REG_SCRATCH          10

#define REG_MT_POS           12   /* Register to reserve for MT implementation */
#define NUM_INSN_MT_PREAMBLE 26   /* number of instructions required for   */
                                  /* the MT preamble.                      */ 

// The stack grows down from high addresses toward low addresses.
// There is a maximum number of bytes on the stack below the current
// value of the stack frame pointer that a function can use without
// first establishing a new stack frame.  When our instrumentation
// needs to use the stack, we make sure not to write into this
// potentially used area.  
//
// OpenPOWER ELF V2 ABI says user code can use 288 bytes underneath
// the stack pointer and system code can further use 224 more bytes
//
// In case we are instrumenting signal handlers, we want to skip 
// skip more spaces, which is 288+224=512 bytes
#define STACKSKIP          512

// Both 32-bit and 64-bit PowerPC ELF ABI documents for Linux state
// that the stack frame pointer value must always be 16-byte (quadword)
// aligned.  Use the following macro on all quantities used to
// increment or decrement the stack frame pointer.
#define ALIGN_QUADWORD(x)  ( ((x) + 0xf) & ~0xf )  //x is positive or unsigned

#define GPRSAVE_32  (32*4)
#define GPRSAVE_64  (32*8)
#define FPRSAVE     (14*8)
#define VECSAVE     (33*16)

#define SPRSAVE_32  (6*4+8)
#define SPRSAVE_64  (6*8+8)
#define FUNCSAVE_32 (32*4)
#define FUNCSAVE_64 (32*8)
#define FUNCARGS_32 (16*4)
#define FUNCARGS_64 (16*8)
#define LINKAREA_32 (6*4)
#define LINKAREA_64 (6*8)

#if defined(os_linux)
#define PARAM_OFFSET(mutatee_address_width)                         \
        (                                                           \
            ((mutatee_address_width) == sizeof(uint64_t))           \
            ? (   /* 64-bit ELF PowerPC Linux                   */  \
                  sizeof(uint64_t) +  /* TOC save doubleword    */  \
                  sizeof(uint64_t) +  /* LR save doublewordd    */  \
                  sizeof(uint32_t) +  /* Reserved word          */  \
                  sizeof(uint32_t) +  /* CR save word           */  \
                  sizeof(uint64_t)    /* Stack frame back chain */  \
              )                                                     \
            : (   /* 32-bit ELF PowerPC Linux                   */  \
                  sizeof(uint32_t) +  /* LR save                */  \
                  sizeof(uint32_t)    /* Stack frame back chain */  \
              )                                                     \
        )
#elif defined(os_vxworks)
#define PARAM_OFFSET(bah) (0)
#else
#error "Unknown operating system in inst-power.h"
#endif


// Okay, now that we have those defined, let's define the offsets upwards
#define TRAMP_FRAME_SIZE_32 ALIGN_QUADWORD(STACKSKIP + GPRSAVE_32 + VECSAVE \
                                           + SPRSAVE_32 \
                                           + FUNCSAVE_32 + FUNCARGS_32 + LINKAREA_32)
#define TRAMP_FRAME_SIZE_64 ALIGN_QUADWORD(STACKSKIP + GPRSAVE_64 + VECSAVE \
                                           + SPRSAVE_64 \
                                           + FUNCSAVE_64 + FUNCARGS_64 + LINKAREA_64)
#define PDYN_RESERVED_32 (LINKAREA_32 + FUNCARGS_32 + FUNCSAVE_32)
#define PDYN_RESERVED_64 (LINKAREA_64 + FUNCARGS_64 + FUNCSAVE_64)

#define TRAMP_SPR_OFFSET_32 (PDYN_RESERVED_32) /* 4 for LR */
#define STK_LR       (              0)
#define STK_CR_32    (STK_LR      + 4)
#define STK_CTR_32   (STK_CR_32   + 4)
#define STK_XER_32   (STK_CTR_32  + 4)
#define STK_FP_CR_32 (STK_XER_32  + 4)
#define STK_SPR0_32  (STK_FP_CR_32+ 8)

#define TRAMP_SPR_OFFSET_64 (PDYN_RESERVED_64)
#define STK_CR_64    (STK_LR      + 8)
#define STK_CTR_64   (STK_CR_64   + 8)
#define STK_XER_64   (STK_CTR_64  + 8)
#define STK_FP_CR_64 (STK_XER_64  + 8)
#define STK_SPR0_64  (STK_FP_CR_64+ 8)

#define TRAMP_SPR_OFFSET(x) (((x) == 8) ? TRAMP_SPR_OFFSET_64 : TRAMP_SPR_OFFSET_32)

#define TRAMP_FPR_OFFSET_32 (TRAMP_SPR_OFFSET_32 + SPRSAVE_32)
#define TRAMP_FPR_OFFSET_64 (TRAMP_SPR_OFFSET_64 + SPRSAVE_64)
#define TRAMP_FPR_OFFSET(x) (((x) == 8) ? TRAMP_FPR_OFFSET_64 : TRAMP_FPR_OFFSET_32)

#define TRAMP_GPR_OFFSET_32 (TRAMP_FPR_OFFSET_32 + VECSAVE)
#define TRAMP_GPR_OFFSET_64 (TRAMP_FPR_OFFSET_64 + VECSAVE)
#define TRAMP_GPR_OFFSET(x) (((x) == 8) ? TRAMP_GPR_OFFSET_64 : TRAMP_GPR_OFFSET_32)

#define FUNC_CALL_SAVE_32 (LINKAREA_32 + FUNCARGS_32)
#define FUNC_CALL_SAVE_64 (LINKAREA_64 + FUNCARGS_64)
#define FUNC_CALL_SAVE(x) (((x) == 8) ? FUNC_CALL_SAVE_64 : FUNC_CALL_SAVE_32)

///////////////////////////// Multi-instruction sequences
class codeGen;

void saveSPR(codeGen &gen,
             Register scratchReg,
             int sprnum,
             int stkOffset);
void restoreSPR(codeGen &gen,
                Register scratchReg,
                int sprnum,
                int stkOffset);
void saveLR(codeGen &gen,
            Register scratchReg,
            int stkOffset);
void restoreLR(codeGen &gen,
               Register scratchReg,
               int stkOffset);
void setBRL(codeGen &gen,
            Register scratchReg,
            long val,
            unsigned ti); // We're lazy and hand in the next insn
void saveCR(codeGen &gen,
            Register scratchReg,
            int stkOffset);
void restoreCR(codeGen &gen,
               Register scratchReg,
               int stkOffset);
void saveFPSCR(codeGen &gen,
               Register scratchReg,
               int stkOffset);
void restoreFPSCR(codeGen &gen,
                  Register scratchReg,
                  int stkOffset);
void saveRegister(codeGen &gen,
                  Register reg,
                  int save_off);
// We may want to restore a _logical_ register N
// (that is, the save slot for N) into a different reg.
// This avoids using a temporary
void restoreRegister(codeGen &gen,
                     Register source,
                     Register dest,
                     int save_off);
// Much more common case
void restoreRegister(codeGen &gen,
                     Register reg,
                     int save_off);
void saveFPRegister(codeGen &gen,
                    Register reg,
                    int save_off);
// See above...
void restoreFPRegister(codeGen &gen,
                       Register source,
                       Register dest,
                       int save_off);
void restoreFPRegister(codeGen &gen,
                       Register reg,
                       int save_off);
void pushStack(codeGen &gen);
void popStack(codeGen &gen);
unsigned saveGPRegisters(codeGen &gen, 
                         registerSpace *theRegSpace,
                         int save_off, int numReqGPRs=-1);
unsigned restoreGPRegisters(codeGen &gen, 
                            registerSpace *theRegSpace,
                            int save_off);
unsigned saveFPRegisters(codeGen &gen, 
                         registerSpace *theRegSpace,
                         int save_off);
unsigned restoreFPRegisters(codeGen &gen,
                            registerSpace *theRegSpace,
                            int save_off);
unsigned saveSPRegisters(codeGen &gen, registerSpace *,
                         int save_off, int force_save);
unsigned restoreSPRegisters(codeGen &gen, registerSpace *,
                            int save_off, int force_save);

#endif
